tetra pak taiwan ltd 4, wen ming 3 rd street, lin kou ind. park 3, taoyuan 333
TRANSCRIPT
Tetra Pak Taiwan Ltd Tetra Pak Taiwan Ltd 4, Wen Ming 34, Wen Ming 3rdrd Street, Lin Kou Ind. Park 3, Taoyuan 333 Street, Lin Kou Ind. Park 3, Taoyuan 333
1970s-1972 Hsin Tai Husbandry & Veterinary Co., Ltd authorised as an agent for
Tetra Pak in the Taiwan market.
1974 Uni-president and Chin Chin became Tetra Pak’s business partners. Tetra Pak started to offer packaging services for juice and soybean products for the two giant food companies
1976 Wei-Chuan became Tetra Pak’s third client in the Taiwan market
1977 The Technical Service Department was established in Taiwan. Standard Food became Tetra Pak’s client
Tetra Pak in Taiwan Tetra Pak in Taiwan
1980s-1980 Tetra Pak Taiwan was officially established to better serve the food indu
stry and consumers in Taiwan
1982 Chou Chin became Tetra Pak’s client
1983 Kuang Chuan became a client. The Tetra King system was launched for the packaging of milk and other products
1985 Construction of a Tetra Pak factory started at Linkou, Taiwan
1987 Tetra Pak Taiwan moved to Linkou
1989 Dr. Hans Rausing came to Taiwan for a completion ceremony at the new manufacturing plant in Linkou. Annual sales of Tetra Pak packages in Taiwan exceeded 1 billion packs
Tetra Pak in Taiwan Tetra Pak in Taiwan
1990s-1990 The installation of Tetra Pak’s 100th filling machine in Taiwan was
completed. Tetra Top system was launched in Taiwan
1992 Annual sales of Tetra Pak packages in Taiwan market exceeded 2 billion packs
1993 Tetra Rex was launched in Taiwan. After Tetra Pak’s acquisition of Alfa-Laval, the company was renamed Tetra Laval
1995 Tetra Pak Taiwan earned ISO 9002 certification thanks to its modern quality control system
1997
Tetra Laval Taiwan Ltd. was renamed Tetra Pak Taiwan Ltd. 1999
Tetra Pak Taiwan earned ISO 14001 certification for its quality control
Tetra Pak in Taiwan Tetra Pak in Taiwan
2000s-2000 The World Class Manufacturing (WCM) program was introduced in an
effort to create world-class factories
2001 A new Tetra Top TT/3 system was installed in Taiwan
2002 Tetra Pak celebrated its 50th anniversary
2003 “Flatten and Recycle Beverage Cartons for a Better Environment” Campaign was launched to promote the simple gesture that can create a better environment
2004 Tetra Pak campaign continued to call for attention and action to flatten and recycle cartons for environmental protection
Tetra Pak in Taiwan Tetra Pak in Taiwan
2000s-2005 TV hosts, Kevin Tsai and Little S, became spokes people for the
promotional campaign “Tetra Pak, Protects What’s Good”, aiming to make food safe and available every where
2006 Tetra Pak headquarters and WWF Sweden signed a three-year cooperation agreement. Tetra Pak Taiwan launched its “Do Our Earth A Favour” campaign on Earth Day to bring consumers’ awareness to the issues of climate change
2007 Tetra Pak Taiwan launched its second-year campaign “Do Our Earth A Favour”on Earth Day and extended it to World Environment Day to invite consumers to plant trees online. For each tree planted in its site, Tetra Pak Taiwan donated money to TRAFFIC, a non-profit organization to help conserve the natural resources on earth
Tetra Pak in Taiwan Tetra Pak in Taiwan
VisionVisionWe commit to making food safe and available, everywhere. We commit to making food safe and available, everywhere.
MissionMission We work for and with our customers to provide preferred processing We work for and with our customers to provide preferred processing and packaging solutions for foodand packaging solutions for food. .
We apply our commitment to innovation, our understanding of consumer We apply our commitment to innovation, our understanding of consumer needs and our relationships with suppliers to deliver these solutions, needs and our relationships with suppliers to deliver these solutions, wherever and whenever food is consumedwherever and whenever food is consumed. .
We believe in responsible industry leadership, creating profitable We believe in responsible industry leadership, creating profitable growth in harmony with environmental sustainability and good growth in harmony with environmental sustainability and good corporate citizenshipcorporate citizenship. .
Aseptic ProductsAseptic Products• Aseptic Process and PackagingAseptic Process and Packaging
• Tetra Pak Aseptic PackagingTetra Pak Aseptic Packaging
• The Tetra Pak Ambient Product PortfolioThe Tetra Pak Ambient Product Portfolio
- Tetra Brik- Tetra Brik®® Aseptic Aseptic
- Tetra Prisma® Aseptic- Tetra Prisma® Aseptic
ProductProduct
Chilled ProductsChilled Products
• Tetra Rex® Tetra Rex®
• Tetra Top® Tetra Top®
Tetra Recart®Tetra Recart®
ProductProduct
EnvironmentEnvironmentPolicyPolicy We are committed to environmental sustainabilityWe are committed to environmental sustainability. .
We consider environmental management a top priority We consider environmental management a top priority and have established procedures, programs and and have established procedures, programs and practices for conducting our operations in an practices for conducting our operations in an environmentally sound mannerenvironmentally sound manner. .
Student : Rattaphong Pokkaew (李平 ) Student ID : 0970456
Department of Food Science
Ayrilmis, N. ; Candan, Z. ; Hiziroglu, S. 2008. 29, 1897–1903
Physical and mechanical properties of cardboard panels made from used beverag
e carton with veneer overlay
OutlineOutline1. 1. IntroductionIntroduction2. 2. The objectiveThe objective3. Methods3. Methods4. Results4. Results5. Conclusion5. Conclusion
Other recycled material 97% (11,687,000 tons)
Beverage carton3% (313,000 tons)
Fig. 1 The amount of beverage carton were recycled in 2006
In recent years, environmental problems and recycling issues are being discussed
Recovering waste material from used beverage cartons (UBC) to manufacture a value-added
product with an economical and efficient method is an important issue from the perspective of environmental pollution
Introduction
UBC can be recycled using a thermal compression process to manufacture home and
building products
Fig. 2 The dominating structure of aseptic beverage cartons
Polyethylene: barrier to moisture, bacteria
Paperboard: for stiffness
Polyethylene: adhesion layer
Aluminum: barrier to oxygen, light
Polyethylene: adhesion layer
Polyethylene: seals in liquid food contents
Aseptic beverage cartons can be used to repulping for paper applications
Aseptic beverage cartons can be used to process converts shredded cartons into thermally compressed to make a high strength bio-composite panel alternative to traditional wood based panels such as:
• Particleboard
• Medium density fiberboard (MDF)
• Oriented strandboard (OSB)
Introduction
Developed by Tetra Pak®
UBC is produced in TurkeyUBC is produced in Turkey
Yekpan®
Yekpan® is composed of 70–90% paper 10–25% low density polyethylene (LDPE)
UBC cartons collected from consumers are shredded and then molded together under high temperature and pressure as illustrated in Fig. 2
The process uses the whole waste package without leaving any waste.
ProcessProcess
Yekpan®
UBC cartons are shredded into 5 mm particles
Particles formed in a layer to get a desired thickness
The mat was compressedunder pressure and heat in a hot press
In this process,there is no need addition
of an adhesive element
Advantage of Advantage of UBC carton raw material
Yekpan®
• Panels made from recycled cardboard does not only have any formaldehyde but also have very low resin
amount reducing overall production cost
• Panels have certain content polyethylene which does not contain any formaldehyde
• Panels manufactured from recycled materials would be considered as an alternative solution to forest resources problem
The objective of this work was to evaluate some properties of the cardboard substrate with wood
veneer sheets as an alternative product to wood based panel substrates such as :
The objectiveThe objective
• Particle board
• Oriented strand board
• Medium density fiber board
Determining of water resistance and mechanical properties of cardboard panels overlaid with wood
veneer sheets using various adhesives
Determining of glueline strength (delamination test) between veneer sheet and cardboard substrate
The objectiveThe objective
Determining of the adhesive type having the best glueline strength among experimental adhesives was
also aimed
A cardboard sample
Materials and methods
Cardboard panels were manufactured at Yekas
Recycling Company, a recycling institution acquired to Turkey by
Tetra Pak®, Izmir, Turkey
The cardboard with beech veneer sheets sample
Materials and methods
Top Edge
Fig. 4 Cardboard specimens overlaid with beech veneer sheets
Determination of physical and mechanical properties of the overlaid panels
Modulus of rupture and modulus of elasticity
Janka hardness
Screw withdrawal resistance (Face)
Glueline bond strength
The measure of hardnessGBS strength between
veneer and cardboard surface
The measure of surface The measure of elasticity
Table 1 Properties of adhesives used for panels manufacture
Adhesive type Solids content Specific gravity pH Gel time Viscositybetween cardboard (%) (g/cm3) (20 C) (100 C) (20 C) and veneer sheet (s) (cps)
Polyurethane (PU) (A) 100 1.400 – – 37,000 (B) 100 1.150 – – 190Urea–formaldehyde (UF) 65 1.280 8.25 37.0 450
Phenol–formaldehyde (PF) 47 1.195 11.75 15.0 250–500Melamine/urea 65 1.275 8.75 62.5 200–250formaldehyde (MUF)
Table 2 Average values of physical and mechanical tests of cardboards produced with veneers using various types of adhesives
Fig. 5 Mean glueline bond strength values and standard deviation of the cardboard specimens with veneer sheet using four types of adhesives.
Glu
elin
e b
on
d s
tren
gth
(N
/mm
2 )
Phenol–formaldehyde
Melamine/urea formaldehyde
Urea–formaldehyde
Adhesive types
Polyurethane
DiscussionDiscussion
Cardboard panels polyurethane plays an important role to have a good contact between the particles. Polyurethane melts during the press of the panel creating a very strong bonding between particles which enhance thickness swelling of the products. Moreover small aluminum content in the particles is also acting moisture barrier
and contributes better dimensional stability of the samples.
When melamine adhesives are blended with UF adhesive, they enhance the moisture-resistance properties of the UF adhesive
All overlaid cardboard specimens showed higher thickness swelling as compared to those of the cardboard specimens without woo
d veneers
Physical properties
DiscussionDiscussion
The 20% polyethylene in the cardboard process, polyethylene brings about some elasticity in coverless cardboard more than wood based panels such as parti
cleboard, MDF, and OSB panels
Cardboard samples overlaid using PU adhesive resulted the highest bending strength characteristics among the other samples. Two-component PU adhesive
can be formulated for rigidity, depending on the degree of structural loading required PU adhesive exhibits excellent joint strength
Mechanical properties
The weak adhesion between the cardboard and veneer because of the inorganic materials such as aluminum particles and polyethylene in the used beverage carton. This could be due to the high reactivity of isocyanates with the inorganic
materials of cardboard
DiscussionDiscussion
Apolar aluminum particles on the surface of cardboard and polar structure of veneer resulted in an excellent performance when polyurethane resin was used as a binder. Surface bonding strength of the samples overlaid with UF, MUF and PF adhesive was not as high as those of glued using PU adhesive due to non-p
orous structure of aluminum
Cardboard panels overlaid with veneer sheets using PU and PF adhesive should be suitable for exterior applications
Mechanical properties
Kraft paper used for manufacture of the cardboard samples caused higher compaction than that of particleboard and MDF, aluminum content on the raw m
aterial also enhanced the properties of the final product
Cardboards with veneer sheets using two component PU adhesive can be used in building construction and furniture industry as an alternative products
ConclusionConclusion Raw material from recycled cardboard was used for manufacture of composite panels. Both physical and mechanical properties of the samples resulted in satisfactory values meeting minimum requirements stated in EN 312 type 3 for p
articleboard, EN 622-5 for MDF, and EN 300 Type 3 for OSB.
Wood veneer faced cardboards had significantly higher mechanical and physical properties than those of the wood veneer faced particleboards. This is due t
o tighter profile structure and higher density of cardboard panels
Panels made from recycled cardboard does not only have any formaldehyde but also have very low resin content reducing overall production cost. Such panels have certain amount polyethylene which does not contain any formaldehyde.
Cardboard panels could be used as an alternative substrate for furniture production due to its formaldehyde free formation.
Panels made from recycled cardboard have lower production cost than those of wood based panels since raw material for cardboard panel manufacture is
widely available and has low cost as compared wood raw material